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Carbon Nanotube- and Carbon Fiber-Reinforcement of Ethylene-Octene Copolymer Membranes for Gas and Vapor Separation
- 1.0422225 - ÚCHP 2014 RIV CH eng J - Článek v odborném periodiku
Sedláková, Zuzana - Clarizia, G. - Bernardo, P. - Jansen, J.C. - Slobodian, P. - Svoboda, P. - Kárászová, Magda - Friess, K. - Izák, Pavel
Carbon Nanotube- and Carbon Fiber-Reinforcement of Ethylene-Octene Copolymer Membranes for Gas and Vapor Separation.
Membranes. Roč. 4, č. 1 (2014), s. 20-39. E-ISSN 2077-0375
Grant CEP: GA ČR GAP106/10/1194
Grant ostatní: GA MŠk(CZ) ED2.1.00/03.0111; MicroPERLA(IT) PON01_01840
Institucionální podpora: RVO:67985858
Klíčová slova: membrane separation * mixed membrane matrix * transport properties
Kód oboru RIV: CI - Průmyslová chemie a chemické inženýrství
Gas and vapor transport properties were studied in mixed matrix membranes containing elastomeric ethylene-octene copolymer (EOC or poly(ethylene-co-octene)) with three types of carbon fillers: virgin or oxidized multi-walled carbon nanotubes (CNTs) and carbon fibers (CFs). Helium, hydrogen, nitrogen, oxygen, methane, and carbon dioxide were used for gas permeation rate measurements. Vapor transport properties were studied for the aliphatic hydrocarbon (hexane), aromatic compound (toluene), alcohol (ethanol), as well as water for the representative samples. The mechanical properties and homogeneity of samples was checked by stress-strain tests. The addition of virgin CNTs and CFs improve mechanical properties. Gas permeability of EOC lies between that of the more permeable PDMS and the less permeable semi-crystalline polyethylene and polypropylene. Organic vapors are more permeable than permanent gases in the composite membranes, with toluene and hexane permeabilities being about two orders of magnitude higher than permanent gas permeability. The results of the carbon-filled membranes offer perspectives for application in gas/vapor separation with improved mechanical resistence.
Trvalý link: http://hdl.handle.net/11104/0228394
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